Capacitance Dilatometry for the in-situ Controlled Expansion Process of Cellular Polymer-Filler Composites (Ferroelectrets)

Reinhard Forstner; Gerhard Eder

Capacitance Dilatometry for the in-situ Controlled Expansion Process of Cellular Polymer-Filler Composites (Ferroelectrets)

Reinhard Forstner, Gerhard Eder

Institute of Polymer Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

Ferroelectrets are unusual composites, consisting of a closed-cell polymer-filler foam structure. Ferroelectrets behave like ferroelectric materials during and after internally charging the voids within the cellular polymer composite are expanded in a controlled manner in a high pressure gas chamber. Thereby, the gas pressure is first increased, subsequently released and finally the expanded structure is stabilized by a heat setting treatment at elevated temperatures. Capacitance delatometry provides an easy means for the in-situ monitoring of the multi-step foaming process, and therefore allows for the control of the degree of foaming. The mechanical stabilization of the expanded cellular polymer composite struture is explained in terms of the enhanced crystallinity as a result of the heat setting process.

Original language	English
Pages (from-to)	181-187
Number of pages	6
Journal	Ferroelectrics
Volume	331
Publication status	Published - 2006

Fields of science

103023 Polymer physics
104 Chemistry
104004 Chemical biology
104017 Physical chemistry
104018 Polymer chemistry
104019 Polymer sciences
205012 Polymer processing
205016 Materials testing
206001 Biomedical engineering
210002 Nanobiotechnology
210006 Nanotechnology
211905 Bionics

Cite this

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title = "Capacitance Dilatometry for the in-situ Controlled Expansion Process of Cellular Polymer-Filler Composites (Ferroelectrets)",

abstract = "Ferroelectrets are unusual composites, consisting of a closed-cell polymer-filler foam structure. Ferroelectrets behave like ferroelectric materials during and after internally charging the voids within the cellular polymer composite are expanded in a controlled manner in a high pressure gas chamber. Thereby, the gas pressure is first increased, subsequently released and finally the expanded structure is stabilized by a heat setting treatment at elevated temperatures. Capacitance delatometry provides an easy means for the in-situ monitoring of the multi-step foaming process, and therefore allows for the control of the degree of foaming. The mechanical stabilization of the expanded cellular polymer composite struture is explained in terms of the enhanced crystallinity as a result of the heat setting process.",

author = "Reinhard Forstner and Gerhard Eder",

year = "2006",

language = "English",

volume = "331",

pages = "181--187",

journal = "Ferroelectrics",

issn = "1563-5112",

publisher = "Taylor & Francis Group",

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T1 - Capacitance Dilatometry for the in-situ Controlled Expansion Process of Cellular Polymer-Filler Composites (Ferroelectrets)

AU - Forstner, Reinhard

AU - Eder, Gerhard

PY - 2006

Y1 - 2006

N2 - Ferroelectrets are unusual composites, consisting of a closed-cell polymer-filler foam structure. Ferroelectrets behave like ferroelectric materials during and after internally charging the voids within the cellular polymer composite are expanded in a controlled manner in a high pressure gas chamber. Thereby, the gas pressure is first increased, subsequently released and finally the expanded structure is stabilized by a heat setting treatment at elevated temperatures. Capacitance delatometry provides an easy means for the in-situ monitoring of the multi-step foaming process, and therefore allows for the control of the degree of foaming. The mechanical stabilization of the expanded cellular polymer composite struture is explained in terms of the enhanced crystallinity as a result of the heat setting process.

AB - Ferroelectrets are unusual composites, consisting of a closed-cell polymer-filler foam structure. Ferroelectrets behave like ferroelectric materials during and after internally charging the voids within the cellular polymer composite are expanded in a controlled manner in a high pressure gas chamber. Thereby, the gas pressure is first increased, subsequently released and finally the expanded structure is stabilized by a heat setting treatment at elevated temperatures. Capacitance delatometry provides an easy means for the in-situ monitoring of the multi-step foaming process, and therefore allows for the control of the degree of foaming. The mechanical stabilization of the expanded cellular polymer composite struture is explained in terms of the enhanced crystallinity as a result of the heat setting process.

M3 - Article

SN - 1563-5112

VL - 331

SP - 181

EP - 187

JO - Ferroelectrics

JF - Ferroelectrics

ER -